New Transmission Construction - Is It Worth the Investment?

New high voltage transmission construction is needed to support most future electric supply options including wind and solar, as well as getting the most out of legacy generation.

A reader recently asked:

The latest nuclear radiation leak news from Japan and US EPA regulations on coal plants would seem to petty much seal the fate of large base-load plants in the US. It looks to me like we're moving mostly to dispersed renewables and smaller gas combined cycle. But then I read where transmission construction spending is going up - over $50 billion in the next couple of years. Isn't that just following the same old central generation/large transmission paradigm we've had for a century? Isn't there a real danger of having stranded transmission assets? What am I missing here?

The short answer is that many of the best renewable resources -- where you get the most output per acre or per dollar invested -- are not close to where people live.

It is true that distributed renewables like rooftop solar are growing fast and may come to provide a big chunk of our energy. Still, there are two major reasons for complementing local generation with some long-distance transmission capacity. One is to access those superior wind and solar resources to bring down the cost of bulk electricity. The other reason is to share resources among larger regions as a backup against local problems or shortages. These motivations are the same as what drove the geographic expansion and interconnection of the grid over the past century; the logic still applies even for an all-renewable resource base.

One thing that has changed, though, is what we can now do with technology to store, manage and condition power. So it's fair to ask, how does the investment in long-distance transmission compare to what it would take to provide that same level of power quality and reliability through local means? Either way, we are committing ourselves to some major long-term infrastructure investments. For example, you could imagine many autonomous microgrids, tailored to local resources and needs, with storage and flexible options for managing demand. At today's costs, most people in the industry would say that such a small-scale option is way more expensive than building out transmission links. (Some would argue that while it may cost more, the local approach would also be more resilient against all kinds of disasters -- but that's a topic for another day!)

Of course, costs change over time, and the trend may be toward favoring the more local style. You might also ask what social values are represented by different styles of infrastructure investment. On the one hand, we have self-sufficiency and a "small is beautiful" approach. On the other hand, we have the idea of broad equality -- that citizens everywhere should have access to the same reliable electricity at a fair price. Keep in mind that the most beautiful, advanced microgrids with uninterruptible power supplies don't necessarily crop up in low-income neighborhoods. These are not easy questions. Luckily, it seems that small- and large-scale approaches, with today's technology, are not mutually exclusive; instead, most would say that we need some of both.

So, back to your question: Is it possible that by spending big on transmission, we're saddling ourselves with a new round of stranded assets? Pretty unlikely, in my opinion. As long as transmission lines lead to sunny and windy places and not to coal plants, we'll probably have pretty good use for them for many years to come.

On another note: a lot of future long-distance transmission may be high-voltage d.c., for reasons of electrical stability. It's possible to convert a.c. lines to d.c., so we're not painting ourselves into a corner -- but it's worth thinking strategically about the type of transmission we want to build, which also includes how they look and impact the environment (for example, where do we put them underground?). And that means deciding just how much money we're prepared to spend.

Discuss this Blog Entry 2

There's another side to this story- IF we go in the direction of microgrids and dispersed solar and big wind doesn't grow after PTC's go away then we'll be building gas pipelines but not electrical transmission. In that case we would have stranded transmission capacity at the least. If we tilt towards centralized plants (fossil, solar, wind) then the scenario is as you paint it. In the case of, say, an aluminum smelter that owns it's own generation and sells the excess to the community we would transmission but not a lot and not long distance (macrogrid scenario).

The in between is selling excess disbursed solar when you have too much (CA for example)

But in the main you could make the argument that we'll either have very little need for transmission or be totally dependent on it. Not much in-between. And I'm not sure which direction we're going.

I think renewables are great, but large utility scale solar projects completely contradict the "distributed" concept. Transmission line planning in the US historically was a patchwork of many regional plans each with different voltages/ratings. To get the best ROI we might consider a national transmission strategy that considers the long term growth potential in the USA; 345kV and up - the EU appears to be at 400kV mostly, and lower voltages very quickly lead to costly upgrades.